No. Not if the second number is zero.
The sign of the quotient will be positive. +A/+B = +C. -A/-B = +C. This assumes B is not zero.
They are not. Sometimes they are irrational. Irrational numbers cannot be expressed as a fraction.
You cannot get real square root of a negative number because two numbers multiplied by themselves are always positive You can always get a real cube root of a negative number because three negative numbers multiplied by themselves give a negative .
If it is a real or rational number that is required of the quotient, I'm afraid any number in the set of real numbers are possible solutions for "blank". If, however, the quotient is only constrained to integers and/or whole and/or natural numbers, then the blank will be a multiple of 102. Let's name some to get you started. 102, 204, 306, 408, 510, 612, 714, 816, 918, 1020,1122, etc.
It is called a term.
A real number is any number so yes it is always a real number * * * * * Except if the second number is 0, in which case the quotient is not defined.
Yes, a rational number is a real number. A rational number is a number that can be written as the quotient of two integers, a/b, where b does not equal 0. Integers are real numbers. The quotient of two real numbers is always a real number. The terms "rational" and "irrational" apply to the real numbers. There is no corresponding concept for any other types of numbers.
Any positive number can be written as a quotient of two positive numbers or a quotient of two negative numbers. Any real number can be written as the quotient of two real numbers.
No. A quotient is the result of a division. You can divide any real number by any other real number except zero. Most quotients are not whole numbers.Not always because the quotient could be a decimal or a fraction.
Yes. Rational numbers are always the quotient of two integers. Integers are always real, and you cannot divide a real number by another real number and get an imaginary number. So, true.
Yes but only if the denominator is 0 (so the quotient is not defined).
An Irrational Number..
Irrational number
The sign of the quotient will be positive. +A/+B = +C. -A/-B = +C. This assumes B is not zero.
The set of rational numbers is a subset of the set of real numbers. That means that every rational number is a real number, but not every real number is rational. The square root of 2 is an example of a real number that isn't rational; that is, it can't be expressed as the quotient of two integers.
No, it is not, because real numbers include negative numbers. The square root of a negative number is an imaginary number
Real numbers can be rational or irrational because they both form the number line.